CN114378459A - Sheet metal drilling equipment for intelligent workshop - Google Patents

Abstract

The invention discloses a metal plate drilling device for an intelligent workshop, which belongs to the field of drilling devices and comprises a cross beam, a stroke machine arm and a working machine tool, wherein the stroke machine arm is slidably arranged at the bottom of the cross beam, the working machine tool is arranged corresponding to the stroke machine arm, a laser part for taking holes is rotatably arranged at the bottom end of the stroke machine arm, a focusing mechanism is arranged at the top of the laser part, the top of the working machine tool is hollow and extends into a cavity formed in the working machine tool, a sinking mechanism and a top bracing mechanism are arranged above and below the cavity of the working machine tool, the focusing mechanism comprises a bearing block arranged at the top of the laser part and a lead screw stepping motor positioned above the bearing block, a lead screw on the lead screw stepping motor vertically extends into the bearing block and is in threaded driving connection with the bearing block, and a touch guide rod is also arranged at the bottom of the lead screw stepping motor, so that the influence of defocusing effect on the hole forming of a metal plate can be reduced, improve the focusing precision between laser and the metal plate and improve the quality of pore-forming.

Description

Sheet metal drilling equipment for intelligent workshop

Technical Field

The invention relates to the field of drilling equipment, in particular to metal plate drilling equipment for an intelligent workshop.

Background

Sheet metal is generally a sheet made of metal, and sheet metal is also a sheet made of precious metal.

The noble metal mainly refers to 8 metal elements such as gold, silver and platinum group metals (ruthenium, rhodium, palladium, osmium, iridium, platinum); most of the metals have beautiful colors and stronger chemical stability, and are not easy to react with other chemical substances under common conditions, but with the development of technical progress, the noble metal and one or more different compatible materials, the noble metal material synthesized by a physical method and having a multiphase structure has the characteristics similar to the noble metal, such as good electric conductivity and thermal conductivity, oxidation resistance, corrosion resistance and the like, and is mainly used as an electric contact material in the electronic and electrical industry, an electrode material in the electrochemical industry, a crucible and a bushing material in the glass and glass fiber industry, a crucible vessel material for experiments and the like.

In the process of drilling and processing metal plate material, it is possible to use laser drilling device, the laser equipment is various, but its basic principle is that the laser beam with specific wavelength is acted on the processed object, in the industrial field with extensive laser application, the laser is used as cutting, drilling or processing carving tool, in which the laser drilling process is the thermal physical process of interaction of laser and material, it is determined by laser beam property and many thermal physical properties of material, in the course of drilling, the relation among laser energy, plate material and gap distance between laser and different plate material also needs to be noticed, and simply, the same laser energy, for different plate material, it needs to debug different laser spacing to avoid the phenomenon of inconsistency of upper and lower apertures of plate material, in the present laser drilling equipment, the problem of influence of the laser on the hole forming of the plate due to impact generated by the laser during processing is also considered while the problem of the focal length of the laser is considered.

Aiming at the situation, the invention provides a metal plate drilling device for an intelligent workshop.

Disclosure of Invention

The invention aims to provide metal plate drilling equipment for an intelligent workshop, which can reduce the influence of a defocusing effect on the hole forming of a metal plate S, improve the focusing precision between laser and the metal plate and improve the hole forming quality.

In order to solve the above problems, the present invention adopts the following technical solutions.

The intelligent metal plate drilling equipment for the workshop comprises a cross beam, a stroke machine arm and a working machine tool, wherein the stroke machine arm is slidably mounted at the bottom of the cross beam, the working machine tool is mounted corresponding to the stroke machine arm, a laser part for taking holes is rotatably arranged at the bottom end of the stroke machine arm, and a focusing mechanism is arranged at the top of the laser part;

the top of the working machine tool is hollow and extends into a cavity formed in the working machine tool, and a sinking mechanism and a jacking mechanism are arranged above and below the inner cavity of the working machine tool;

when the metal plate S is positioned between the sinking mechanism and the jacking mechanism, the metal plate S is in a clamped state.

Furthermore, the focusing mechanism comprises a bearing block arranged at the top of the laser part and a lead screw stepping motor arranged above the bearing block, a lead screw on the lead screw stepping motor vertically extends to the inside of the bearing block and is in threaded driving connection with the bearing block, and a touch guide rod is further arranged at the bottom of the lead screw stepping motor.

Furthermore, a probe groove is formed in the bearing block corresponding to the touch guide rod, a guide sheet is arranged in the probe groove, a transmission contact is arranged on the guide sheet, a moving point contact is arranged on one side, facing the transmission contact, of the annular wall of the touch guide rod, and the transmission contact and the moving point contact are arranged correspondingly and at the same interval.

Furthermore, strip-shaped electromagnets are arranged on two sides of the top wall of the cavity of the working machine tool, and the electromagnets are located above the sinking mechanism.

Further, it is including the clamp plate to sink the pressure mechanism, the middle part of clamp plate sets up to be convenient for expose sheet metal S and get the cavity region in hole, the top both sides of clamp plate and correspond the electro-magnet and be provided with the magnetic sheet, the extension spring is still installed in the four corners of clamp plate, be equipped with the fixed column that cup joints with the extension spring on the inside four corners of cavity.

Furthermore, the top bracing mechanism comprises a bearing plate installed corresponding to the electromagnet, the bearing plate is provided with at least two energy absorption grooves, and a bracing rod and a plurality of buffer surfaces are arranged in each energy absorption groove and are installed on the upper portion of the bracing rod.

Furthermore, the curved line setting is personally submitted in the buffering, and a plurality of the crisscross stack setting each other of buffering face is a plurality of the hole face that buffering face and bracing force pole are connected is seted up for the slope, and is a plurality of the combination of buffering face forms the buffering body, lie in on the bracing force pole the both sides of buffering body still are provided with the ring plate of an organic whole formation.

Furthermore, a connecting film connected with the groove surface of the energy absorption groove is arranged on the ring wall of the ring plate at the bottom, a spring used for supporting the supporting rod is further arranged at the bottom of the energy absorption groove, and a through hole communicated with the outside is further formed in the energy absorption groove.

Furthermore, one side of the cavity facing the outlet end is inclined downwards to form an inclined groove surface.

Compared with the prior art, the invention has the advantages that:

(1) this scheme, when lead screw step motor starts, the lead screw drives laser part oscilaltion, make laser part change to sheet metal S 'S control distance degree of depth, be convenient for regulate and control different intervals to different sheet metal S, when making laser beam act on sheet metal S, the increase rate of hole depth is even, reduce the influence of out of focus effect to sheet metal S pore-forming, the incomplete rate of pore-forming that causes because of the laser interval difference when reducing the pass pore-forming, set up on lead screw step motor simultaneously and touch the guide arm, visit the inside guide piece that sets up mutual conduction information in groove, touch the moving point contact on the guide arm and constantly accept the signal of telecommunication transmission with the transmission contact along with lead screw step motor' S lift, improve the precision of focusing between laser part and the sheet metal S, improve the quality of pore-forming.

(2) This scheme, laser is when doing work, produce the shock wave of high energy density, the light beam that the middle part is most concentrated passes panel, all the other energy are the irregular of sphere wavy and scatter to all around, when single-end laser machining, the regional main accepted energy of pore-forming, all the other energy is scattered all around by sheet metal S, energy is weakened gradually and is dwindled down to on a plurality of buffer faces on the sheet metal S, can avoid the resonance that the self of sheet metal S received the impact and arouse, reduce the external influence factor of laser pore-forming, compare with traditional fixed sheet metal S, the mechanism of sinking and shoring has the clamping mode of upper and lower minim scope nature with the mechanism, the remaining impact that the absorption laser that can be better produced, make sheet metal be in the relatively steady state, cooperate with focusing mechanism, further promotion hole' S formation quality.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of a focusing mechanism and a Q plate according to the present invention;

FIG. 3 is a schematic structural diagram of a laser part and a focusing mechanism according to the present invention;

FIG. 4 is an enlarged detail view of A in FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the construction of the working machine according to the present invention;

FIG. 6 is a schematic structural diagram of the sinking mechanism of the present invention;

FIG. 7 is a schematic structural view of a jacking mechanism according to the present invention;

FIG. 8 is a schematic perspective sectional view of the adapting plate according to the present invention;

FIG. 9 is a schematic cross-sectional view of the bearing plate of the present invention;

FIG. 10 is a front view of the working machine according to the present invention;

FIG. 11 is a schematic sectional view of a working machine according to the present invention.

The reference numbers in the figures illustrate:

1. a cross beam; 2. a stroke arm; 3. a working machine tool; 4. a laser section; 5. a focusing mechanism; 6. a chamber; 7. a sinking mechanism; 8. a shoring mechanism; 9. a bearing block; 10. a screw rod stepping motor; 11. touching the guide rod; 13. probing a groove; 14. a guide plate; 15. a transmission contact; 16. a moving point contact; 17. an electromagnet; 18. pressing a plate; 19. a magnetic plate; 20. a tension spring; 21. fixing a column; 22. a bearing plate; 23. an energy absorption groove; 24. a bracing rod; 25. a buffer surface; 26. connecting the films; 27. a spring; 28. and a through hole.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

Referring to fig. 1-11, an intelligent sheet metal drilling device for a workshop includes a beam 1, a stroke arm 2 slidably mounted at the bottom of the beam 1, and a working machine tool 3 mounted corresponding to the stroke arm 2, wherein a laser part 4 for taking a hole is rotatably arranged at the bottom end of the stroke arm 2, and a focusing mechanism 5 is arranged at the top of the laser part 4.

The top of the working machine tool 3 is hollow and extends to form a cavity 6, and a sinking mechanism 7 and a top support mechanism 8 are arranged in the upper and lower parts of the inner cavity of the working machine tool 3.

When the metal plate S is located between the sinking mechanism 7 and the shoring mechanism 8, it is in a clamped state.

Furthermore, the stroke arm 2 is provided with a plurality of rotatable joints, so that the stroke arm 2 can rotate in multiple dimensions.

Referring to fig. 2-3, the focusing mechanism 5 includes a bearing block 9 disposed on the top of the laser part 4, and a lead screw stepping motor 10 disposed above the bearing block 9, a lead screw on the lead screw stepping motor 10 vertically extends into the bearing block 9 and is in threaded driving connection with the bearing block 9, and a touch guide rod 11 is further disposed at the bottom of the lead screw stepping motor 10.

Further, be provided with interconnect's Q board between stroke horn 2's bottom and the laser part 4, one side that Q board and laser part 4 are connected jointly is provided with the U-shaped guide hoop that vertical centre gripping received movable block 9, the inside guide block that is provided with of guide hoop, and the both sides of receiving movable block 9 are corresponding to be provided with the guide slot, and when lead screw step motor 10 started, it reciprocates to receive movable block 9 to drag laser part 4, and it has the effect of rule to receive movable block 9 at the inside linear guide motion of U-shaped guide hoop.

Referring to fig. 2-4, a probe slot 13 is formed on the bearing block 9 corresponding to the touch guide rod 11, a guide plate 14 is disposed inside the probe slot 13, a transmission contact 15 is disposed on the guide plate 14, a moving point contact 16 is disposed on one side of the annular wall of the touch guide rod 11 facing the transmission contact 15, and the transmission contact 15 and the moving point contact 16 are disposed corresponding to each other and at the same interval.

Further, the touch guide rod 11 changes synchronously with the connecting depth of the screw rod stepping motor 10 and the bearing block 9, and the guide sheet 14 is connected with a remote terminal through an electric signal.

Further, when the lead screw stepping motor 10 is started, the lead screw drives the laser part 4 to ascend and descend vertically, so that the control distance and the depth of the laser part 4 to the metal plate S are changed, different distances can be conveniently regulated and controlled for different metal plates S, when laser beams act on the metal plates S, the increasing rate of the hole depth is uniform, the influence of defocusing effect on the hole forming of the metal plates S is reduced, the hole forming failure rate caused by different laser distances in hole forming is reduced, meanwhile, the touch guide rod 11 is arranged on the lead screw stepping motor 10, the guide piece 14 conducting information mutually is arranged inside the detection groove 13, the touch point contact 16 and the transmission contact 15 on the guide rod 11 are touched along with the ascending and descending of the lead screw stepping motor 10 to continuously receive electric signal transmission, the focusing precision between the laser part 4 and the metal plates S is improved, and the quality of hole forming is improved.

Referring to fig. 5-6, strip-shaped electromagnets 17 are disposed on both sides of the top wall of the chamber 6 of the working machine 3, and the electromagnets 17 are disposed above the sinking mechanism 7.

Referring to fig. 5-6, the sinking mechanism 7 includes a pressing plate 18, the middle of the pressing plate 18 is a hollow area convenient for exposing the metal plate S for hole taking, magnetic plates 19 are disposed on two sides of the top of the pressing plate 18 and corresponding to the electromagnets 17, tension springs 20 are further mounted at four corners of the pressing plate 18, fixing posts 21 sleeved with the tension springs 20 are disposed at four corners inside the chamber 6, wherein the fixing posts 21 extend obliquely toward one side away from the center of the pressing plate 18, so that the stability of connection between the tension springs 20 and the fixing posts 21 can be improved.

Further, when the electromagnet 17 is powered on, magnetic force is generated to attract the magnetic plate 19, the pressing plate 18 is pulled up, so that a space is generated between the pressing plate 18 and the jacking mechanism 8, the metal plate S is filled, after the placement is completed, the electromagnet 17 is powered off, and the four-corner tension springs 20 pull the pressing plate 18 to press and fix the metal plate S.

Referring to fig. 6-7, the top bracing mechanism 8 includes a bearing plate 22 installed corresponding to the electromagnet 17, the bearing plate 22 is provided with at least two energy-absorbing grooves 23, and the energy-absorbing grooves 23 are internally provided with bracing rods 24 and a plurality of buffer surfaces 25 installed on the upper portions of the bracing rods 24.

Referring to fig. 7-8, the buffering surfaces 25 are in a curved shape, and a plurality of the buffering surfaces 25 are staggered and stacked, a hole surface connecting the buffering surfaces 25 and the supporting rod 24 is obliquely formed, the buffering surfaces 25 are combined to form a buffering body, and ring plates integrally formed are further disposed on the supporting rod 24 at two sides of the buffering body.

Further, when placing sheet metal S inside, clamp plate 18 sinks downwards and presses, accepts board 22 and props upwards, accepts inside buffering face 25 of board 22 and subsides downwards, because the hole face that buffering face 25 and bracing piece 24 are connected is seted up for the slope, and the inclined plane pore pair bracing piece 24 has resistance grabbing power, delays the bracing piece 24 and subsides until bracing piece 24 resumes steadily.

When the laser is used for working, shock waves with high energy density are generated, the light beam with the most concentrated middle part penetrates through the plate, the rest energy is scattered to the periphery in a spherical wave shape, the hole forming area mainly receives energy when single-head laser processing is carried out, the rest energy is scattered to the periphery from the whole metal plate S, the energy on the metal plate S is gradually weakened and gradually decreased to the plurality of buffer surfaces 25, resonance caused by shock to the metal plate S can be avoided, and external influence factors of laser hole forming are reduced.

Referring to fig. 7-9, a connecting film 26 connected to the groove surface of the energy-absorbing groove 23 is disposed on the ring wall of the ring plate at the bottom, a spring 27 for supporting the supporting rod 24 is further disposed at the bottom of the energy-absorbing groove 23, and a through hole 28 communicated with the outside is further disposed inside the energy-absorbing groove 23.

Furthermore, the bracing force rod 24, the connecting film 26 and the spring 27 form a damping structure, when the metal plate S is placed on the bearing plate 22, the pressing plate 18 sinks downwards to enable the three to gradually reach a stable balance state, so that subsequent punching work is facilitated, when multi-head laser is processed together (not shown in the figure), the area of an impact net spread out by multiple laser energy is increased, the buffer body formed by combining the plurality of buffer surfaces 25 can better absorb and reduce energy, and the damping structure is gradually decreased to the bottom from the buffer body.

Referring to fig. 10-11, the chamber 6 is sloped downwardly toward the outlet end to form a sloped trough surface for collecting the scrap cut from the sheet metal S

When in use: when the screw rod stepping motor 10 is started, the screw rod drives the laser part 4 to lift up and down, so that the control distance and the depth of the laser part 4 to the metal plate S are changed, different distances are conveniently regulated and controlled aiming at different metal plates S, when laser beams act on the metal plates S, the increasing rate of the hole depth is uniform, the influence of a defocusing effect on the hole forming of the metal plates S is reduced, the hole forming failure rate caused by different laser distances in hole forming is reduced, meanwhile, a touch guide rod 11 is arranged on the screw rod stepping motor 10, a guide sheet 14 for mutually conducting information is arranged in a probing groove 13, a moving contact 16 and a transmission contact 15 on the touch guide rod 11 are continuously subjected to electric signal transmission along with the lifting of the screw rod stepping motor 10, the focusing precision between the laser part 4 and the metal plates S is improved, the quality of hole forming is improved, and high-energy-density shock waves are generated by laser in working, the light beam most concentrated in the middle passes through the plate, the rest energy is irregularly scattered to the periphery in a spherical wave shape, when a single-head laser processing is carried out, the hole forming area mainly receives the energy, the rest energy is scattered to the periphery from the whole metal plate S, the energy on the metal plate S is gradually weakened and gradually decreased to the plurality of buffer surfaces 25, resonance caused by impact on the metal plate S can be avoided, and external influence factors of laser hole forming are reduced.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto; any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (9)

1. The utility model provides an intelligence is sheet metal drilling equipment for workshop, includes crossbeam (1), slidable mounting in stroke horn (2) of crossbeam (1) bottom to and correspond work lathe (3) of stroke horn (2) installation, the rotatable laser portion (4) that are used for getting the hole that are provided with in bottom of stroke horn (2), its characterized in that: a focusing mechanism (5) is arranged at the top of the laser part (4);

the top of the working machine tool (3) is hollow and extends to form a cavity (6) which is opened inside, and a sinking mechanism (7) and a jacking mechanism (8) are arranged above and below the cavity (6) of the working machine tool (3);

the sinking mechanism (7) and the jacking mechanism (8) are used for clamping the metal plate S.

2. The sheet metal drilling equipment for the intelligent workshop as claimed in claim 1, wherein: the focusing mechanism (5) comprises a bearing block (9) arranged at the top of the laser part (4) and a screw rod stepping motor (10) positioned above the bearing block (9), a screw rod on the screw rod stepping motor (10) vertically extends to the inside of the bearing block (9) and is in threaded driving connection with the bearing block (9), and a touch guide rod (11) is further arranged at the bottom of the screw rod stepping motor (10).

3. The sheet metal drilling equipment for the intelligent workshop as claimed in claim 2, wherein: the touch device is characterized in that the bearing block (9) is correspondingly provided with a touch guide rod (11) and a detection groove (13), a guide sheet (14) is arranged in the detection groove (13), a transmission contact (15) is arranged on the guide sheet (14), one side, facing the transmission contact (15), of the annular wall of the touch guide rod (11) is provided with a movable point contact (16), and the transmission contact (15) and the movable point contact (16) are correspondingly arranged at equal intervals.

4. The sheet metal drilling equipment for the intelligent workshop as claimed in claim 1, wherein: both sides of the working machine tool (3) on the top wall of the chamber (6) are provided with strip-shaped electromagnets (17), and the electromagnets (17) are positioned above the sinking mechanism (7).

5. The sheet metal drilling equipment for the intelligent workshop as claimed in claim 1, wherein: sink and press mechanism (7) including clamp plate (18), the middle part of clamp plate (18) sets up to be convenient for expose sheet metal S and get the cavity region in hole, the top both sides of clamp plate (18) just correspond electro-magnet (17) and be provided with magnetic sheet (19), extension spring (20) are still installed in the four corners of clamp plate (18), be equipped with fixed column (21) that cup joint with extension spring (20) on the inside four corners of cavity (6).

6. The sheet metal drilling equipment for the intelligent workshop as claimed in claim 1, wherein: the jacking mechanism (8) comprises a bearing plate (22) installed corresponding to the electromagnet (17), wherein the bearing plate (22) is provided with at least two energy absorption grooves (23), supporting rods (24) are arranged inside the energy absorption grooves (23), and a plurality of buffer surfaces (25) are arranged on the upper portions of the supporting rods (24).

7. The sheet metal drilling equipment for the intelligent workshop as claimed in claim 6, wherein: buffering face (25) are the curvilinear figure setting, and a plurality of buffering face (25) crisscross stack each other sets up, and is a plurality of the hole face that buffering face (25) and supporting force pole (24) are connected is seted up for the slope, and is a plurality of buffering face (25) combination forms the buffering body, lie in on supporting force pole (24) the both sides of buffering body still are provided with the crown plate of an organic whole.

8. The sheet metal drilling equipment for the intelligent workshop as claimed in claim 7, wherein: the bottom is provided with a connecting film (26) connected with the groove surface of the energy-absorbing groove (23) on the ring wall of the ring plate, the bottom of the energy-absorbing groove (23) is also provided with a spring (27) used for jacking a supporting rod (24), and a through hole (28) communicated with the outside is also formed in the energy-absorbing groove (23).

9. The sheet metal drilling equipment for the intelligent workshop as claimed in claim 1, wherein: one side of the cavity (6) facing the outlet end is downwards inclined to form an inclined groove surface.

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